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Author Topic: Negative Inductance and measure of Magnetic force.  (Read 164496 times)

shylo

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Re: Negative Inductance and measure of Magnetic force.
« Reply #630 on: March 19, 2020, 01:40:57 PM »
Synchro,
when you find that sweet spot, where the laminate stator is vibrating,
if you put a repulsive magnet on the other end of the stack,
will that cause the input to increase?
if not it could be used to drive several magnet rotors?
artv

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #631 on: March 19, 2020, 04:31:23 PM »
@shylo;

I Put your idea to the test and it worked very well. Thank you. Here's a short video of the effect:

https://www.youtube.com/watch?v=u-ffqrV0IjU


The neo magnets with hundreds of pounds of force do nearly all of the work. The electromagnet field allows the domains to switch. Multiple magnet disc pistons look feasible.

The Electromagnet can not draw more power then is supplied to it: That's 1 Watt from the wall transformer. Once it's at saturation level it can no longer consume any additional power. This makes the power draw constant regardless of how much work it's called on to do with the field.

The interaction between the electromagnet and materials have no net effect on the addition or loss of power consumed. The motion of the vibrating magnet field is generating power in the Electromagnet  coil. This power has to be greater with the magnet fluctuating then without! The electromagnet is acting as a power switch for the permanent fields.


I am making measurments with a DMM through recovery diodes, but I hesitate to reveal them because they're controversial.
« Last Edit: March 19, 2020, 07:36:53 PM by synchro1 »

shylo

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Re: Negative Inductance and measure of Magnetic force.
« Reply #632 on: March 20, 2020, 09:28:12 AM »
Thanks for the demo.
Since no extra input is required there's no reason several magnet rotors couldn't be added.
You say "wall transformer" is the input to the electro-magnet AC or DC?
Sorry my electronic knowledge is basically non existent.
Thanks again  artv

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #633 on: March 20, 2020, 10:19:10 AM »
Thanks for the demo.
Since no extra input is required there's no reason several magnet rotors couldn't be added.
You say "wall transformer" is the input to the electro-magnet AC or DC?
Sorry my electronic knowledge is basically non existent.
Thanks again  artv


You're right. The question of current is important: The input is 12 volt D.C. from a wall transformer, and the electromagnet 12 volts D.C. The possibility that A.C., the Frequency of 60 Hz or a short circuit are blending with the D.C. output through the wall transformer is real. In every case, one thing holds true: The Neo magnets are powering the oscillation, not the current! Remove the magnets and the oscillation goes away. Too many magnets kills the oscillation. The electromagnet "Neutral Zone" field is acting as a domain shifting semiconductor layer that is switching the PM fields and powering itself as a generator. The switch cost is paid for by the nuclear Quanta.

A strong A.C. current would oscillate the stator blade and disc magnets without any permanent magnets present; So it's not strictly an A.C. current event. A.C. current would not need any magnets.

The electromagnet begins to spontaneously power itself as a "GENERATOR" with the large offset Neo's attached to it. This is already a "Free Energy" generator! How large can it get? The upward limit appears to be boundless.

The magnetic force fields that are shifted by way of the electromagnet are far in excess of the small amount of electrical power the electromagnet consumes to sustain it's electro-magnetic field. How much work can you get from magnets of hundred of pounds in force by pressing down on them? An equal amount.

Any amount of work we get from the permanent magnets could in no way effect the power draw of the electromagnet. We only need to oscillate one "Harp" to supply all the World's power!

kolbacict

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Re: Negative Inductance and measure of Magnetic force.
« Reply #634 on: March 20, 2020, 11:53:42 AM »
Factory-made vibration transducers suitable for experimentation?

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #635 on: March 20, 2020, 01:04:01 PM »

@kolbacict,

Thank you for the addition: Nice component!

This may be the first time anyone has ever explained how Lester's generator really worked:

Hendershot combined a horseshoe magnet with 2 electro magnets and a stator. He reduced the power to 1 electro-magnet and a spontaneous vibration appeared from the field asymmetry. He tuned for the "Neutral Zone". I accomplish this same effect with the eccentric positioning of the permanent magnets. A nuclear force is powering this oscillation as the electron domains shift their polarity at a regular frequency. We are actually harnessing atomic energy.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #636 on: March 20, 2020, 02:38:52 PM »
Hendershot used a "U" core with 2 coils. I use a pot core with 1 coil. The Microwave is a 1 coil core with a split field like the electromagnet. Positioning magnets asymmetrically on the Microwave "E" core with 2  straddling the center leg and 2 on one end, in opposition polarity would generate a substantial mechanical motion in a spring blade with magnets attached to perhaps power something large. A "AA" battery may be enough to maintain the electromagnet field enough to oscillate a large spring blade and magnets.

kolbacict

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Re: Negative Inductance and measure of Magnetic force.
« Reply #637 on: March 20, 2020, 03:25:16 PM »
I don’t understand anything ... Why can’t you replace your electromagnet with a permanent one?
 :)

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #638 on: March 20, 2020, 04:13:11 PM »
I don’t understand anything ... Why can’t you replace your electromagnet with a permanent one?
 :)


The electromagnet field and the permanent magnet field are qualitatively different. Gadolinium will attract to a Permanent Magnet field but not to an electromagnetic one.


The interaction of these dissimilarities feed the oscillation.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #639 on: March 20, 2020, 04:39:06 PM »

The electromagnet field and the permanent magnet field are qualitatively different. Gadolinium will attract to a Permanent Magnet field but not to an electromagnetic one.


The interaction of these dissimilarities feed the oscillation.


The microwave transformer should oscillate a carving knife blade with a stack of 1" inch neo disc's attached. The oscillation will immediately start charging the run battery. A separate output coil can pick current up from the disc stack.





« Last Edit: March 20, 2020, 10:12:42 PM by synchro1 »

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #640 on: March 21, 2020, 01:16:57 PM »
"When an external magnetizing field through a piece of ferromagnetic material is changed, for example by moving a magnet toward or away from an iron bar, the magnetization of the material changes in a series of discontinuous changes, causing "jumps" in the magnetic flux through the iron".

The stator is "Jumping" inside the Bloch Wall! The "Domain Shift" is not confined to the material; The "Jump" characteristic remains the same. The entire area of data switch engineering is devoted to the magnetic frequency characteristics of alloys.


The main point is that we are taping limitless free power from the Quanta!

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #641 on: March 21, 2020, 07:25:07 PM »
the power supply;

kolbacict

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Re: Negative Inductance and measure of Magnetic force.
« Reply #642 on: March 21, 2020, 08:31:10 PM »
 not want to be excited  vibrations of the vibrator plate when powered by a dc current.  How many I did not put different magnets around the device.  However, if an alternating current is applied at the resonant frequency, some positions of the magnet do amplify the oscillation.

synchro1

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Re: Negative Inductance and measure of Magnetic force.
« Reply #643 on: March 22, 2020, 01:47:40 PM »

@kolbaciat,


Can you upload a video?

not want to be excited  vibrations of the vibrator plate when powered by a dc current.  How many I did not put different magnets around the device.  However, if an alternating current is applied at the resonant frequency, some positions of the magnet do amplify the oscillation.


Connecting two microwave stators together with 8 magnets of opposite polarity, 4 on each "E" core, with the 2 primary coils only, should amplify the A.C. current like the two shaded pole stators "Tinman" measures his 6 times the power through with a strong Neo magnet attaching them.

kolbacict

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Re: Negative Inductance and measure of Magnetic force.
« Reply #644 on: March 22, 2020, 03:12:31 PM »
well. I'll try. :)

p.s. And the ripple does not crawl from your power supply?
Is the voltage filtered well?